广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2014年
15期
108-109,127
,共3页
高岭土%尼龙66%溶液共混%复合材料
高嶺土%尼龍66%溶液共混%複閤材料
고령토%니룡66%용액공혼%복합재료
kaolin%nylon66%solution mixing%composites
以甲酸做溶剂,采用溶液共混法制备高岭土/尼龙66复合材料,对其进行XRD, FTIR, DSC表征。结果表明:高岭土对尼龙66结晶的晶型没有影响,但高岭土与尼龙66间存在化学键作用。随着高岭土的增加,复合材料的结晶度先增大后减小,当高岭土含量为4%时,复合材料结晶度达到最高为45.64%。
以甲痠做溶劑,採用溶液共混法製備高嶺土/尼龍66複閤材料,對其進行XRD, FTIR, DSC錶徵。結果錶明:高嶺土對尼龍66結晶的晶型沒有影響,但高嶺土與尼龍66間存在化學鍵作用。隨著高嶺土的增加,複閤材料的結晶度先增大後減小,噹高嶺土含量為4%時,複閤材料結晶度達到最高為45.64%。
이갑산주용제,채용용액공혼법제비고령토/니룡66복합재료,대기진행XRD, FTIR, DSC표정。결과표명:고령토대니룡66결정적정형몰유영향,단고령토여니룡66간존재화학건작용。수착고령토적증가,복합재료적결정도선증대후감소,당고령토함량위4%시,복합재료결정도체도최고위45.64%。
With formic acid as solvent , the solution mixing was used to fabricate a series of kaolin/nylon66 composites.The composites were characterized by XRD , FTIR and DSC.The results demonstrated that kaolin had no effect on the crystal form of crystallization of nylon 66 , but chemical bonds existed in the compound material between kaolin and nylon 66.The crystallization degree of the kaolin/nylon66 composites increased first and then reduced with kaolin increased.When the content of kaolin reached 4%, the crystallization degree of the kaolin/nylon66 composites was the biggest of 45.64%.